March 2003 Contents
How (Not) to Solve Quadratic Equations
Yves Nievergelt
Solving ax2+ bx + c = 0 should present no difficulties, should it? Perhaps not, but it can. Such equations must be solved in the world beyond the classroom (which, by the way, is no more “real” than that of the classroom) and not all algorithms give the same result.
Tangent Line Transformations
Steven Butler
The geometric transformation of mapping a curve (x(t), y(t)) to the curve (slope of tangent line at t, y-intercept of tangent line at t) has a surprising property.
Recursive Enumeration of Pythagorean Triples/B>
Darryl McCullough and Elizabeth Wade
First comes (3, 4, 5), then (5, 12, 13) - then what? (7, 24, 25) or (8, 15, 17)? Here is a one-to-one mapping from pairs of positive integers to the set of all Pythagorean triples.
Independent Thinking
Reuben Hersh
2, 4, 8, 16; what comes next? In this triologue Ludwig answers 16, Imre answers 2. The question of how long the sequence continues is also considered.
The Eccentricity of a Conic Section
Ayoub B. Ayoub
What is the eccentricity of the conic section whose equation is fx2 + 2gxy + hy2 + 2kx + 2ly + m = 0? As you might expect, it isn’t anything extremely simple, but it isn’t all that complicated either.
Lissajous Figures and Chebyshev Polynomials
Julio Castiñeira Merino
Lissajous figures are those pretty curves generated by the parametric equations
x = a cos(bt + c), y = d cos(et + f).
It’s possible to eliminate the parameter and get (x, y) equations for them in terms of, of all things, Chebyshev polynomials
Tossing a Fair Coin
Leonard Lipkin
As long as probability endures we will be tossing coins, and as long as students endure some will fail to grasp what happens when we toss them for a long time. We know that the difference between the number of heads and the number of tails gets large, and it is good to remind students of this.
Fallacies, Flaws, and Flimflam
Ed Barbeau, editor
FFFs #204-#209, including a series that both converges and diverges.
Classroom Capsules
Warren Page, editor
A Dozen Minima for a Parabola
Leon M. Hall
Let the normal line to y = x2 at P intersect the parabola at Q. Here are twelve minimization problems based on this simple figure, with answers in numerical order.
A Remark on the Chain Rule for Exponential Matrix Functions
James H. Liu
Alas, the chain rule does not always hold when differentiating functions that involve e to a matrix power.
A Codeword Proof of the Binomial Theorem
Mark Ramras
A proof by counting. Clever counting, of course.
Column Integration and Series Representation
Thomas P. Dence and Joseph B. Dence
Tabular integration by parts gives some results beyond antiderivatives.
Constrained Optimization with Implicit Differentiatio
Gary W. De Young
A way of looking at maximum-minimum problems that has advantages over the usual method.
Problems and Solutions
Benjamin Klein, Irl Bivens, and L. R. King, editors
Media Highlights
Warren Page, editor
Miscellanea